Method for power control during call acquisition in CDMA mobile communication systems

1. A method of controlling power upon call acquisition in a CDMA mobile communication system for adjusting transmission power to a mobile station by sending a power control adjustment signal from a base station to the mobile station via a forward link, comprising the steps of: (a) determining a signal-to-interference ratio and a maximum transmission power level respectively as predetermined first and second thresholds; (b) indicating a given power adjustment per predetermined period; (c) measuring a signal-to-interference ratio of a reverse link signal received from the mobile station, comparing the measured signal-to-interference ratio with the first threshold determined in said step (a), and comparing a present transmission power level with the second threshold determined in said step (a); (d) not indicating the power adjustment per said predetermined period if said measured signal-to-interference ratio is greater than said first threshold in said step (c) or if said present transmission power level is greater than said second threshold in said step (c); (e) indicating the power adjustment per said predetermined period, said power adjustment being a power increment, if said measured signal-to-interference ratio is smaller than said first threshold in said step (c) or if said present transmission power level is smaller than said second threshold in said step (c); (f) after said step (d) or said step (e), confirming whether a preamble signal from the mobile station is normally decoded, and returning to said step (c) if the preamble signal is not normally decoded; and (g) starting a closed-loop power control algorithm if it is confirmed that the preamble signal is normally decoded in said step (f).

2. A method of controlling power upon call acquisition in a CDMA mobile communication system for adjusting transmission power to a mobile station by sending a power control adjustment signal from a base station to the mobile station via a forward link, comprising the steps of: (a) determining a signal-to-interference ratio and a maximum transmission power level respectively as predetermined first and second thresholds; (b) indicating a given power adjustment per predetermined period; (c) measuring a signal-to-interference ratio of a reverse link signal received from the mobile station, comparing the measured signal-to-interference ratio with the first threshold determined in said step (a), and comparing a present transmission power level with the second threshold determined in said step (a); (d) indicating the power adjustment per said predetermined period, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (c) or if said present transmission power level is greater than said second threshold in said step (c); (e) indicating the power adjustment per said predetermined period, said power adjustment being a power increment, if said measured signal-to-interference ratio is smaller than said first threshold in said step (c) or if said present transmission power level is smaller than said second threshold in said step (c); (f) after said step (d) or said step (e), confirming whether a preamble signal from the mobile station is normally decoded, and returning to said step (c) if the preamble signal is not normally decoded; and (g) starting a closed-loop power control algorithm if it is confirmed that the preamble signal is normally decoded in said step (f).

3. A method of controlling power upon call acquisition in a CDMA mobile communication system for adjusting transmission power to a mobile station by sending a power control adjustment signal from the mobile station to a base station via a reverse link, comprising the steps of: (a) determining a signal-to-interference ratio and a maximum transmission power level respectively as predetermined first and second thresholds; (b) indicating a given power adjustment per predetermined period; (c) measuring a signal-to-interference ratio of a reverse link signal received from the base station, comparing the measured signal-to-interference ratio with the first threshold determined in said step (a), and comparing a present transmission power level with the second threshold determined in said step (a); (d) not indicating the power adjustment per said predetermined period if said measured signal-to-interference ratio is greater than said first threshold in said step (c) or if said present transmission power level is greater than said second threshold in said step (c); (e) indicating the power adjustment per said predetermined period, said power adjustment being a power increment, if said measured signal-to-interference ratio is smaller than said first threshold in said step (c) or if said present transmission power level is smaller than said second threshold in said step (c); (f) after said step (d) or said step (e), confirming whether a preamble signal from the base station is normally decoded, and returning to said step (c) if the preamble signal is not normally decoded; and (g) starting a closed-loop power control algorithm if it is confirmed that the preamble signal is normally decoded in said step (f).

4. A method of controlling power upon call acquisition in a CDMA mobile communication system for adjusting transmission power to a mobile station by sending a power control adjustment signal from the mobile station to a base station via a reverse link, comprising the steps of: (a) determining a signal-to-interference ratio and a maximum transmission power level respectively as predetermined first and second thresholds; (b) indicating a given power adjustment per predetermined period; (c) measuring a signal-to-interference ratio of a reverse link signal received from the base station, comparing the measured signal-to-interference ratio with the first threshold determined in said step (a), and comparing a present transmission power level with the second threshold determined in said step (a); (d) indicating the power adjustment per said predetermined period, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (c) or if said present transmission power level is greater than said second threshold in said step (c); (e) indicating the power adjustment per said predetermined period, said power adjustment being a power increment, if said measured signal-to-interference ratio is smaller than said first threshold in said step (c) or if said present transmission power level is smaller than said second threshold in said step (c); (f) after said step (d) or said step (e), confirming whether a preamble signal from the base station is normally decoded, and returning to said step (c) if the preamble signal is not normally decoded; and (g) starting a closed-loop power control algorithm if it is confirmed that the preamble signal is normally decoded in said step (f).

5. A method according to claim 1 , wherein said power adjustment in said step (b), said step (d), or said step (e) is indicated in units of 0.1 dB.

6. A method according to claim 2 , wherein said power adjustment in said step (b), said step (d), or said step (e) is indicated in units of 0.1 dB.

7. A method according to claim 3 , wherein said power adjustment in said step (b), said step (d), or said step (e) is indicated in units of 0.1 dB.

8. A method according to claim 4 , wherein said power adjustment in said step (b), said step (d), or said step (e) is indicated in units of 0.1 dB.

9. A method according to claim 1 , wherein said closed-loop power control algorithm started in said step (g) comprises the steps of: (h) determining a signal-to-interference ratio and a maximum allowable bit error ratio respectively as first and second thresholds; (i) measuring a signal-to-interference ratio of a signal received from the mobile station or the base station, and comparing the measured signal-to-interference ratio with the first threshold determined in said step (h); (j) indicating the power adjustment, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (i); (k) indicating the power adjustment, said power adjustment being a power increment, if said measured signal-to-interference ratio is smaller than said first threshold in said step (i); (l) after said step A) or said step (k), measuring a maximum allowable bit error ratio of a signal received from the mobile station or the base station, and comparing the measured maximum allowable bit error ratio with the second threshold determined in said step (h); (m) increasing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is greater than the second threshold in said step (1); and (n) reducing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is smaller than the second threshold in said step (1).

10. A method according to claim 2 , wherein said closed-loop power control algorithm started in said step (g) comprises the steps of: (h) determining a signal-to-interference ratio and a maximum allowable bit error ratio respectively as first and second thresholds; (i) measuring a signal-to-interference ratio of a signal received from the mobile station or the base station, and comparing the measured signal-to-10 interference ratio with the first threshold determined in said step (h); (j) indicating the power adjustment, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (i); (k) indicating the power adjustment, said power adjustment being a power increment, if said measured signal-to-interference ratio is smaller than said first threshold in said step (i); (l) after said step (j) or said step (k), measuring a maximum allowable bit error ratio of a signal received from the mobile station or the base station, and comparing the measured maximum allowable bit error ratio with the second threshold determined in said step (h); (m) increasing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is greater than the second threshold in said step (1); and (n) reducing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is smaller than the second threshold in said step (1).

11. A method according to claim 3 , wherein said closed-loop power control algorithm started in said step (g) comprises the steps of: (h) determining a signal-to-interference ratio and a maximum allowable bit error ratio respectively as first and second thresholds; (i) measuring a signal-to-interference ratio of a signal received from the mobile station or the base station, and comparing the measured signal-to-interference ratio with the first threshold determined in said step (h); (j) indicating the power adjustment, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (i); (k) indicating the power adjustment, said power adjustment being a power increment, if said measured signal-to-interference ratio is smaller than said first threshold in said step (i); (l) after said step (j) or said step (k), measuring a maximum allowable bit error ratio of a signal received from the mobile station or the base station, and comparing the measured maximum allowable bit error ratio with the second threshold determined in said step (h); (m) increasing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is greater than the second threshold in said step (1); and (n) reducing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is smaller than the second threshold in said step (1).

12. A method according to claim 4 , wherein said closed-loop power control algorithm started in said step (g) comprises the steps of: (h) determining a signal-to-interference ratio and a maximum allowable bit error ratio respectively as first and second thresholds; (i) measuring a signal-to-interference ratio of a signal received from the mobile station or the base station, and comparing the measured signal-to-interference ratio with the first threshold determined in said step (h); (j) indicating the power adjustment, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (i); (k) indicating the power adjustment, said power adjustment being a power increment, if said measured ratio is smaller than said first threshold in said step (i); (l) after said step (j) or said step (k), measuring a maximum allowable bit error ratio of a signal received from the mobile station or the base station, and comparing the measured maximum allowable bit error ratio with the second threshold determined in said step (h); (m) increasing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is greater than the second threshold in said step (1); and (n) reducing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is smaller than the second threshold in said step (1).

13. A method according to claim 5 , wherein said closed-loop power control algorithm started in said step (g) comprises the steps of: (h) determining a signal-to-interference ratio and a maximum allowable bit error ratio respectively as first and second thresholds; (i) measuring a signal-to-interference ratio of a signal received from the mobile station or the base station, and comparing the measured signal-to-interference ratio with the first threshold determined in said step (h); (j) indicating the power adjustment, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (i); (k) indicating the power adjustment, said power adjustment being a power increment, if said measured signal-to-interference ratio is smaller than said first threshold in said step (i); (l) after said step (j) or said step (k), measuring a maximum allowable bit error ratio of a signal received from the mobile station or the base station, and comparing the measured maximum allowable bit error ratio with the second threshold determined in said step (h); (m) increasing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is greater than the second threshold in said step (1); and (n) reducing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is smaller than the second threshold in said step (1).

14. A method according to claim 6 , wherein said closed-loop power control algorithm started in said step (g) comprises the steps of: (h) determining a signal-to-interference ratio and a maximum allowable bit error ratio respectively as first and second thresholds; (i) measuring a signal-to-interference ratio of a signal received from the mobile station or the base station, and comparing the measured signal-to-interference ratio with the first threshold determined in said step (h); (j) indicating the power adjustment, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (i); (k) indicating the power adjustment, said power adjustment being a power increment, if said measured signal-to-interference ratio is smaller than said first threshold in said step (i); (l) after said step (j) or said step (k), measuring a maximum allowable bit error ratio of a signal received from the mobile station or the base station, and comparing the measured maximum allowable bit error ratio with the second threshold determined in said step (h); (m) increasing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is greater than the second threshold in said step (1); and (n) reducing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is smaller than the second threshold in said step (1).

15. A method according to claim 7 , wherein said closed-loop power control algorithm started in said step (g) comprises the steps of: (h) determining a signal-to-interference ratio and a maximum allowable bit error ratio respectively as first and second thresholds; (i) measuring a signal-to-interference ratio of a signal received from the mobile station or the base station, and comparing the measured signal-to-interference ratio with the first threshold determined in said step (h); (j) indicating the power adjustment, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (i); (k) indicating the power adjustment, said power adjustment being a power increment, said measured signal-to-interference ratio is smaller than said first threshold in said step (i); (l) after said step (j) or said step (k), measuring a maximum allowable bit error ratio of a signal received from the mobile station or the base station, and comparing the measured maximum allowable bit error ratio with the second threshold determined in said step (h); (m) increasing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is greater than the second threshold in said step (1); and (n) reducing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is smaller than the second threshold in said step (1).

16. A method according to claim 8 , wherein said closed-loop power control algorithm started in said step (g) comprises the steps of: (h) determining a signal-to-interference ratio and a maximum allowable bit error ratio respectively as first and second thresholds; (i) measuring a signal-to-interference ratio of a signal received from the mobile station or the base station, and comparing the measured signal-to-interference ratio with the first threshold determined in said step (h); (j) indicating the power adjustment, said power adjustment being a power decrement, if said measured signal-to-interference ratio is greater than said first threshold in said step (i); (k) indicating the power adjustment, said power adjustment being a power increment, if said measured ratio is smaller than said first threshold in said step (i); (l) after said step (j) or said step (k), measuring a maximum allowable bit error ratio of a signal received from the mobile station or the base station, and comparing the measured maximum allowable bit error ratio with the second threshold determined in said step (h); (m) increasing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is greater than the second threshold in said step (1); and (n) reducing said first threshold and thereafter returning to said step (i) if the measured maximum allowable bit error ratio is smaller than the second threshold in said step (1).